Our anode formulations are optimized to create highly catalytic active anode layers (directly in contact with the electrolyte layer), while others have been tailored to provide highly conductive current collection layers that provide stable gas-diffusion drying operation. Anode powders offered by fuelcellmaterials can be used for a range of fuel cell applications including inks or anode supports via tape casting, extrusion, or roll compaction.
Less clicking, more information.
Finding the perfect powder shouldn’t have to take so much time, or so much clicking. The table format below gives an overview of the formulations and specifications for each powder, and to view additional information or to order please click on the view product detail on the right side.
Quick and simple, the way it should be.
Mixed Nickel Electrolyte
Shortcode | Formulation | Grade | Surface Area | PSD D50 | ||
---|---|---|---|---|---|---|
131101 | 60 wt% NiO 40 wt% (Gd0.10Ce0.90)O1.95 |
Coating | 4-8 m2/g | Bimodal | ||
131301 | 66 wt% NiO 34 wt% (Y2O3)0.08(ZrO2)0.92 |
Coating | 4-8 m2/g | Bimodal | View Product Page | |
132301 | NiOYSZ-TC | 60 wt% NiO 40 wt% (Y2O3)0.08(ZrO2)0.92 |
Support | 1-4 m2/g | Bimodal | View Product Page |
Nickel Oxide
Shortcode | Formulation | Grade | Surface Area | PSD D50 | ||
---|---|---|---|---|---|---|
312010 | 60 wt% NiO 40 wt% (Gd0.10Ce0.90)O1.95 |
Fine | 2-5 m2/g | 0.5-1.5 µm | ||
312011 | 66 wt% NiO 34 wt% (Y2O3)0.08(ZrO2)0.92 |
Standard | ≤1 m2/g | 12-22 µm | View Product Page |